One selleckchem of the diseases of human pregnancy with increasing evidence documenting micro- and macrovascular endothelial dysfunction corresponds to GDM [81]. GDM is a disease coursing with glucose intolerance first recognized or manifested during pregnancy [3]. GDM accounts for ~5% of pregnant women worldwide and associates with high risk of perinatal alterations (e.g., macrosomia [28], insulin resistance [95], higher systolic blood pressure [1]) and diseases in the adulthood (e.g., diabetes

[80], obesity [13], dyslipidemia [25], hypertension [25], metabolic syndrome [11]). More recently, much evidence has been reported regarding GDM coexistence with other pandemia including obesity [18,67,96] and dyslipidemia [20, 23, 49, 58] during pregnancy. Thus, GDM-associated deleterious effects could be worsened by maternal supraphysiological gain of weight

or hypercholesterolemia during pregnancy [50, 49]. One of the main alterations detected in GDM is the associated endothelial dysfunction of the fetoplacental circulation [48, 81]. Since the vasculature in the human placenta lacks innervation [54] several local metabolic mechanisms, such as synthesis and release of vasoactive molecules (e.g., adenosine) [6, 64], release of nanovesicles (e.g., https://www.selleckchem.com/products/bmn-673.html exosomes) most likely mediating autocrine and/or paracrine modulation of vasculature [70, 69] lead to acute and rapid modulation of vascular tone in this vascular bed [16]. Endothelial cells from the macrovasculature, that is, HUVEC and HUAEC, or the microvasculature, that is, hPMEC, of the

human placenta have been shown to exhibit metabolic differences [48, 81]. These differences include alterations in the capacity of endothelial cells to take up and metabolize the cationic amino acid l-arginine, the substrate for the synthesis of NO, or the vasoactive endogenous nucleoside adenosine, and alterations in the sensitivity to insulin (Figure 1) [40, 71, 98]. In fact, the endothelium from the human placental micro- and macrovasculature exhibit specific differences in the l-arginine/NO signaling pathway regarding differential expression and activity of l-arginine membrane DAPT in vivo transporters and eNOS or iNOS isoforms (Figure 2) [53, 79, 82, 88]. These differences could be crucial to determine a relative specific phenotype of micro- and macrovascular placental endothelium [48, 82]. Interestingly, GDM has been proposed to be associated with a preferential metabolic rather than a mitogenic signaling pathway in response to insulin in hPMEC [71]. The latter seems to result from altered expression of insulin receptor isoforms in this cell type from GDM pregnancies. In this review, we summarize some aspects of the role of adenosine and insulin, including the potential preferential expression and activation of adenosine and insulin receptors in the GDM-associated micro- and macrovascular endothelial cell dysfunction in the human placenta.